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diff --git a/node_modules/node-forge/lib/pbkdf2.js b/node_modules/node-forge/lib/pbkdf2.js
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+/**
+ * Password-Based Key-Derivation Function #2 implementation.
+ *
+ * See RFC 2898 for details.
+ *
+ * @author Dave Longley
+ *
+ * Copyright (c) 2010-2013 Digital Bazaar, Inc.
+ */
+var forge = require('./forge');
+require('./hmac');
+require('./md');
+require('./util');
+
+var pkcs5 = forge.pkcs5 = forge.pkcs5 || {};
+
+var crypto;
+if(forge.util.isNodejs && !forge.options.usePureJavaScript) {
+  crypto = require('crypto');
+}
+
+/**
+ * Derives a key from a password.
+ *
+ * @param p the password as a binary-encoded string of bytes.
+ * @param s the salt as a binary-encoded string of bytes.
+ * @param c the iteration count, a positive integer.
+ * @param dkLen the intended length, in bytes, of the derived key,
+ *          (max: 2^32 - 1) * hash length of the PRF.
+ * @param [md] the message digest (or algorithm identifier as a string) to use
+ *          in the PRF, defaults to SHA-1.
+ * @param [callback(err, key)] presence triggers asynchronous version, called
+ *          once the operation completes.
+ *
+ * @return the derived key, as a binary-encoded string of bytes, for the
+ *           synchronous version (if no callback is specified).
+ */
+module.exports = forge.pbkdf2 = pkcs5.pbkdf2 = function(
+  p, s, c, dkLen, md, callback) {
+  if(typeof md === 'function') {
+    callback = md;
+    md = null;
+  }
+
+  // use native implementation if possible and not disabled, note that
+  // some node versions only support SHA-1, others allow digest to be changed
+  if(forge.util.isNodejs && !forge.options.usePureJavaScript &&
+    crypto.pbkdf2 && (md === null || typeof md !== 'object') &&
+    (crypto.pbkdf2Sync.length > 4 || (!md || md === 'sha1'))) {
+    if(typeof md !== 'string') {
+      // default prf to SHA-1
+      md = 'sha1';
+    }
+    p = Buffer.from(p, 'binary');
+    s = Buffer.from(s, 'binary');
+    if(!callback) {
+      if(crypto.pbkdf2Sync.length === 4) {
+        return crypto.pbkdf2Sync(p, s, c, dkLen).toString('binary');
+      }
+      return crypto.pbkdf2Sync(p, s, c, dkLen, md).toString('binary');
+    }
+    if(crypto.pbkdf2Sync.length === 4) {
+      return crypto.pbkdf2(p, s, c, dkLen, function(err, key) {
+        if(err) {
+          return callback(err);
+        }
+        callback(null, key.toString('binary'));
+      });
+    }
+    return crypto.pbkdf2(p, s, c, dkLen, md, function(err, key) {
+      if(err) {
+        return callback(err);
+      }
+      callback(null, key.toString('binary'));
+    });
+  }
+
+  if(typeof md === 'undefined' || md === null) {
+    // default prf to SHA-1
+    md = 'sha1';
+  }
+  if(typeof md === 'string') {
+    if(!(md in forge.md.algorithms)) {
+      throw new Error('Unknown hash algorithm: ' + md);
+    }
+    md = forge.md[md].create();
+  }
+
+  var hLen = md.digestLength;
+
+  /* 1. If dkLen > (2^32 - 1) * hLen, output "derived key too long" and
+    stop. */
+  if(dkLen > (0xFFFFFFFF * hLen)) {
+    var err = new Error('Derived key is too long.');
+    if(callback) {
+      return callback(err);
+    }
+    throw err;
+  }
+
+  /* 2. Let len be the number of hLen-octet blocks in the derived key,
+    rounding up, and let r be the number of octets in the last
+    block:
+
+    len = CEIL(dkLen / hLen),
+    r = dkLen - (len - 1) * hLen. */
+  var len = Math.ceil(dkLen / hLen);
+  var r = dkLen - (len - 1) * hLen;
+
+  /* 3. For each block of the derived key apply the function F defined
+    below to the password P, the salt S, the iteration count c, and
+    the block index to compute the block:
+
+    T_1 = F(P, S, c, 1),
+    T_2 = F(P, S, c, 2),
+    ...
+    T_len = F(P, S, c, len),
+
+    where the function F is defined as the exclusive-or sum of the
+    first c iterates of the underlying pseudorandom function PRF
+    applied to the password P and the concatenation of the salt S
+    and the block index i:
+
+    F(P, S, c, i) = u_1 XOR u_2 XOR ... XOR u_c
+
+    where
+
+    u_1 = PRF(P, S || INT(i)),
+    u_2 = PRF(P, u_1),
+    ...
+    u_c = PRF(P, u_{c-1}).
+
+    Here, INT(i) is a four-octet encoding of the integer i, most
+    significant octet first. */
+  var prf = forge.hmac.create();
+  prf.start(md, p);
+  var dk = '';
+  var xor, u_c, u_c1;
+
+  // sync version
+  if(!callback) {
+    for(var i = 1; i <= len; ++i) {
+      // PRF(P, S || INT(i)) (first iteration)
+      prf.start(null, null);
+      prf.update(s);
+      prf.update(forge.util.int32ToBytes(i));
+      xor = u_c1 = prf.digest().getBytes();
+
+      // PRF(P, u_{c-1}) (other iterations)
+      for(var j = 2; j <= c; ++j) {
+        prf.start(null, null);
+        prf.update(u_c1);
+        u_c = prf.digest().getBytes();
+        // F(p, s, c, i)
+        xor = forge.util.xorBytes(xor, u_c, hLen);
+        u_c1 = u_c;
+      }
+
+      /* 4. Concatenate the blocks and extract the first dkLen octets to
+        produce a derived key DK:
+
+        DK = T_1 || T_2 ||  ...  || T_len<0..r-1> */
+      dk += (i < len) ? xor : xor.substr(0, r);
+    }
+    /* 5. Output the derived key DK. */
+    return dk;
+  }
+
+  // async version
+  var i = 1, j;
+  function outer() {
+    if(i > len) {
+      // done
+      return callback(null, dk);
+    }
+
+    // PRF(P, S || INT(i)) (first iteration)
+    prf.start(null, null);
+    prf.update(s);
+    prf.update(forge.util.int32ToBytes(i));
+    xor = u_c1 = prf.digest().getBytes();
+
+    // PRF(P, u_{c-1}) (other iterations)
+    j = 2;
+    inner();
+  }
+
+  function inner() {
+    if(j <= c) {
+      prf.start(null, null);
+      prf.update(u_c1);
+      u_c = prf.digest().getBytes();
+      // F(p, s, c, i)
+      xor = forge.util.xorBytes(xor, u_c, hLen);
+      u_c1 = u_c;
+      ++j;
+      return forge.util.setImmediate(inner);
+    }
+
+    /* 4. Concatenate the blocks and extract the first dkLen octets to
+      produce a derived key DK:
+
+      DK = T_1 || T_2 ||  ...  || T_len<0..r-1> */
+    dk += (i < len) ? xor : xor.substr(0, r);
+
+    ++i;
+    outer();
+  }
+
+  outer();
+};